Abstract
Blood flow restriction (BFR) may enhance the acute training stimulus of exercise. This study examined acute physiological and perceptual responses to three lower-limb BFR + interval exercise protocols. Twenty-four club/university male athletes (age 25 ± 3.5, VO2max 47.0 ± 5.5ml∙kg∙min-1) completed four experimental conditions in a randomised crossover manner: (i) high-intensity control (HI) - 100% maximal aerobic power (Wmax); (ii) high-intensity recovery occlusion (HIRO) - 100%Wmax, 80% limb occlusion pressure (LOP) during rest; (iii) moderate-intensity low occlusion (MILO) - 70%Wmax, 50%LOP during exercise; and (iv) moderate-intensity high occlusion (MIHO) - 70%Wmax, 80%LOP during exercise. All interval exercise protocols were three sets of five × 30-s cycling, 30-s unloaded active recovery with 3-min seated rest between sets. During recovery, HIRO condition indicated lower tissue saturation index, higher deoxyhaemoglobin, oxyhaemoglobin and total haemoglobin levels than other conditions (all p < 0.05). HIRO exhibited significantly higher heart rate (HR) from set 2 and blood lactate (bLa) at 5-min post-exercise than other conditions (all p < 0.05). Higher vastus lateralis muscle activity was exhibited on the last exercise repetition of HIRO than HI (p < 0.05). MIHO elicited significantly higher deoxygenation, lower muscle activation but similar HR and bLa than HI during exercise; and higher perceived pain and exertion than other conditions (all p < 0.05). Applying BFR during rest between high-intensity interval exercise sets increases physiological stresses without affecting exercise intensity or perceptual responses; applying BFR during moderate-intensity exercise may increase both physiological and perceptual responses beyond those of high-intensity exercise.
Published Version
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